GH5188 Powder
$0.00
GH5188 Powder
| Product | GH5188 Powder |
| CAS No. | 7440-48-4 |
| Appearance | Silver-Gray Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | CoCrNiW |
| Density | 4.80g/cm3 |
| Molecular Weight | N/A |
| Product Codes | NCZ-DCY-237/25 |
GH5188 Description:
GH5188 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
GH1588 Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
GH5188 Powder
GH5188 is a W-strengthened diamond-based high-temperature alloy. GH5188 has good mechanical properties and excellent high temperature oxidation resistance. It is suitable for aviation parts that require tensile strength below 980°C and oxidation resistance below 1100°C.
GH5188 is a W-strengthened diamond-based high-temperature alloy. GH5188 has good mechanical properties and excellent high temperature oxidation resistance. It is suitable for aviation parts that require tensile strength below 980°C and oxidation resistance below 1100°C.
| Size range | Size distribution | Hall flow rate | Bulk density | Tap density | ||
| D10(μm) | D50(μm) | D90(μm) | ||||
| 15-53μm | 17-22 | 32-38 | 52-58 | ≤18s/50g | ≥4.80g/cm³ | ≥5.40g/cm³ |
Heat Treatment Recommendations
Solid solution treatment:1180±20°C/1h/AC
Mechanical Behavior
| Test temperature | Tensile strength (σb/Mpa) | Yield strength (σp0.2/Mpa) | Elongation (δ5/%) |
| 25℃ | 900 | 400 | ≥45 |
| 650℃ | 650 | 280 | ≥50 |
| 900℃ | 300 | 240 | ≥50 |
| 950℃ | 200 | 170 | ≥50 |
| 1000℃ | 160 | 130 | ≥50 |
Chemical Composition Range (Wt,-%)
| Element | C | Cr | Ni | Co | W | Fe |
| wt% | 0.05-0.15 | 20.00-24.00 | 20.00-24.00 | Bal | 13.00-16.00 | ≤3.00 |
| Element | B | La | Mn | Si | P | S |
| wt% | ≤0.015 | 0.03-0.12 | ≤1.25 | 0.20-0.50 | ≤0.02 | ≤0.015 |
| Element | Cu | O | N | – | – | – |
| wt% | ≤0.07 | ≤0.025 | ≤0.015 | – | – | – |
Description
Note: For pricing & ordering information, please get in touch with us at sales@nanochemazone.com
Please contact us for quotes on Larger Quantities and customization. E-mail: contact@nanochemazone.com
Customization:
If you are planning to order large quantities for your industrial and academic needs, please note that customization of parameters (such as size, length, purity, functionalities, etc.) is available upon request.
NOTE:
Images, pictures, colors, particle sizes, purity, packing, descriptions, and specifications for the real and actual goods may differ. These are only used on the website for the purposes of reference, advertising, and portrayal. Please contact us via email at sales@nanochemazone.com or by phone at (+1 780 612 4177) if you have any questions.
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Related products
317L Powder
317L Powder
| Product | 317L Powder |
| CAS No. | 12597-67-6 |
| Appearance | Silvery Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | Fe-18Cr-12Ni-3Mo |
| Density | 7.9g/cm3 |
| Molecular Weight | 150-160 g/mol |
| Product Codes | NCZ-DCY-172/25 |
317L Description:
317L Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
317L Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
317L Powder
317L powder is an austenitic stainless steel powder containing 18% chromium, 3% molybdenum, and 0.08% carbon. It offers an excellent combination of corrosion resistance, strength, weldability and cost.
Overview of 317L Powder
317L powder is an austenitic stainless steel powder containing 18% chromium, 3% molybdenum, and 0.08% carbon. It offers an excellent combination of corrosion resistance, strength, weldability and cost.
Key properties and advantages of 317L powder include:
317L Powder Properties and Characteristics
| Properties | Details |
| Composition | Fe-18Cr-3Mo-0.08C alloy |
| Density | 8.0 g/cc |
| Particle shape | Irregular, angular |
| Size range | 10-150 microns |
| Apparent density | Up to 50% of true density |
| Flowability | Moderate |
| Corrosion resistance | Excellent in many environments |
| Strengthening | Cold working and solid solution strengthening |
317L powder is widely used in chemical processing, marine applications, pulp and paper industry, nuclear power generation, and architectural features needing weathering resistance.
317L Powder Composition
| Element | Weight % |
| Iron (Fe) | Balance |
| Chromium (Cr) | 17-19% |
| Nickel (Ni) | 11-15% |
| Molybdenum (Mo) | 2.5-3.5% |
| Manganese (Mn) | <2% |
| Carbon (C) | 0.08% max |
| Silicon (Si) | 1% max |
| Nitrogen (N) | 0.10% max |
| Sulfur (S) | 0.03% max |
Iron provides the ferritic matrix and ductility
Chromium enhances corrosion and oxidation resistance
Nickel stabilizes the austenitic structure
Molybdenum further improves pitting resistance
Carbon, nitrogen and sulfur controlled as tramp elements
317L Powder Physical Properties
| Property | Values |
| Density | 8.0 g/cc |
| Melting point | 1370-1400°C |
| Electrical resistivity | 0.8 μΩ-m |
| Thermal conductivity | 16 W/mK |
| Thermal expansion | 16 x 10^-6 /K |
| Maximum service temperature | 900°C |
High density compared to ferritic stainless steels
Maintains strength and corrosion resistance at elevated temperatures
Resistivity higher than pure iron or carbon steels
Lower thermal conductivity than carbon steel
Can withstand continuous service up to 900°C
The physical properties make 317L suitable for high temperature applications requiring corrosion resistance.
317L Powder Mechanical Properties
| Property | Values |
| Tensile strength | 515-620 MPa |
| Yield strength | 205-275 MPa |
| Elongation | 40-50% |
| Hardness | 88-95 HRB |
| Impact strength | 100-150 J |
| Modulus of elasticity | 190-210 GPa |
Excellent combination of strength and ductility
Can be work hardened significantly to increase strength
Very high toughness and impact strength
Strength can be further improved through cold working
Hardness is relatively low in annealed condition
The properties provide an excellent balance of strength, ductility and toughness required for many corrosive environments.
317L Powder Applications
| Industry | Example Uses |
| Chemical | Tanks, valves, pipes, pumps |
| Petrochemical | Process equipment, tubing, valves |
| Marine | Propeller shafts, fasteners, deck hardware |
| Nuclear | Reactor vessels, fuel element cladding |
| Architectural | Railings, wall panels, roofing |
Some specific product uses:
Pollution control equipment handling hot acids
Nuclear reactor internal structures
Marine propeller shafts, deck fittings
Pulp and paper industry piping, valves
Architectural paneling, roofing, cladding
Its excellent corrosion resistance combined with good manufacturability make 317L widely used across demanding industries.
317L Powder Standards
| Standard | Description |
| ASTM A276 | Standard for stainless steel bars and shapes |
| ASTM A479 | Standard for stainless steel tubing |
| AMS 5524 | Annealed stainless steel bar, wire, forgings |
| ASME SA-276 | Specification for stainless steel bars and shapes |
| AISI 630 | Standard for 17Cr-4Ni precipitation hardening stainless steel |
These standards define:
Chemical composition limits of 317L alloy
Permissible impurity levels like S, P
Required mechanical properties
Approved production methods
Compliance testing protocols
Proper packaging, labeling and documentation
Meeting certification requirements ensures suitability of the powder for the intended applications.
317L Powder Particle Size Distribution
| Particle Size | Characteristics |
| 10-45 microns | Ultrafine grade for high density and surface finish |
| 45-150 microns | Coarse grade provides good flowability |
| 15-150 microns | Standard grade for pressing and sintering |
Finer particles allow greater densification during sintering
Coarser powder flows better and fills die cavities uniformly
Size range is tailored based on final part properties needed
Both gas and water atomized powders are available
Controlling particle size distribution allows optimizing processing behavior and final part performance.
317L Powder Apparent Density
| Apparent Density | Details |
| Up to 50% of true density | For irregular powder morphology |
| 4.5-5.5 g/cc typical | Improves with greater packing density |
Higher apparent density improves powder flow and compressibility
Irregular morphology limits maximum packing density
Values up to 60% are possible with spherical powder
High apparent density improves press filling efficiency
Higher apparent density leads to better manufacturing productivity and part quality.
317L Powder Production Method
| Method | Details |
| Gas atomization | High pressure inert gas breaks molten metal stream into fine droplets |
| Water atomization | High pressure water jet breaks metal into fine particles |
| Vacuum induction melting | High purity input materials melted under vacuum |
| Multiple remelting | Improves chemical homogenization |
| Sieving | Classifies powder into different particle size ranges |
Gas atomization provides clean, spherical powder morphology
Water atomization is a lower cost process with irregular particles
Vacuum melting and remelting minimizes gaseous impurities
Post-processing allows customization of particle sizes
Automated production and stringent quality control result in consistent powder suitable for critical applications.
317L Powder Handling and Storage
| Recommendation | Reason |
| Use PPE and ventilation | Avoid exposure to fine metallic particles |
| Ensure proper grounding | Prevent static discharge while handling |
| Avoid ignition sources | Powder can combust in oxygen atmosphere |
| Use non-sparking tools | Prevent possibility of ignition |
| Follow safety protocols | Reduce risk of burns, inhalation, ingestion |
| Store in stable containers | Prevent contamination or oxidation |
As 317L powder is flammable, ignition and explosion risks should be controlled during handling and storage. Otherwise it is relatively safe with proper precautions.
317L Powder Testing
| Test | Details |
| Chemical analysis | ICP and XRF verify composition |
| Particle size distribution | Laser diffraction determines size distribution |
| Apparent density | Hall flowmeter test per ASTM B212 standard |
| Powder morphology | SEM imaging shows particle shape |
| Flow rate analysis | Gravity flow rate through specified nozzle |
| Loss on ignition | Determines residual moisture content |
Stringent testing ensures the powder meets the required chemical purity, particle characteristics, density, morphology, and flowability per applicable specifications.
317L Powder Pros and Cons
Advantages of 317L Powder
Excellent corrosion resistance in many environments
High temperature strength and oxidation resistance
Good ductility, toughness and weldability
More cost-effective than high nickel austenitic grades
Readily formable using conventional techniques
Can be work hardened through cold/warm working
Disadvantages of 317L Powder
Lower high temperature creep strength than some ferritic grades
Lower hardness and wear resistance than martensitic grades
Susceptible to chloride stress corrosion cracking
Requires post weld annealing to prevent sensitization
Limited cold heading and forming capability
Surface discoloration over time in outdoor exposure
Comparison With 316L Powder
317L vs 316L Stainless Steel Powder
| Parameter | 317L | 316L |
| Density | 8.0 g/cc | 8.0 g/cc |
| Strength | 515-620 MPa | 485-550 MPa |
| Corrosion resistance | Excellent | Outstanding |
| Pitting resistance | Very good | Excellent |
| Cost | Low | High |
| Uses | Process industry, marine | Chemical, pharmaceutical |
317L provides higher strength at lower cost
316L offers better pitting corrosion resistance
317L has good chloride stress corrosion resistance
316L preferred for ultra-corrosive environments
317L suited for marine applications and nuclear industry
317L Powder FAQs
Q: What are the main applications of 317L stainless steel powder?
A: Main applications include chemical processing, petrochemical, marine, nuclear, pulp & paper, and architectural. It is used for equipment like tanks, valves, pipes, pumps, shafts, and cladding.
Q: What precautions should be taken when handling 317L powder?
A: Recommended precautions include ventilation, grounding, avoiding ignition sources, using non-sparking tools, protective gear, safe storage, and controlling dust exposure.
Q: How does molybdenum improve the corrosion resistance of 317L?
A: Molybdenum enhances pitting and crevice corrosion resistance in chloride environments. It stabilizes the passive film protecting the surface.
Q: What is the main difference between 304L and 317L stainless steel powder?
A: 317L contains 3% molybdenum giving it significantly better corrosion resistance compared to 304L, especially in marine and other chloride environments.
420 Powder
420 Powder
| Product | 420 Powder |
| CAS No. | 73665-45-9 |
| Appearance | Silvery Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | Fe-12Cr-0.3C |
| Density | 7.7g/cm3 |
| Molecular Weight | 15-66g/mol |
| Product Codes | NCZ-DCY-173/25 |
420 Description:
420 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
420 Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
316L is an austenitic stainless steel. The Mo content of 316L gives it excellent corrosion resistance
17-4PH is a martensitic precipitation hardening stainless steel with high strength, hardness and corrosion resistance.
420 is a martensitic stainless steel with good mechanical properties, thermal conductivity and polishing properties similar to mold steel, while maintaining good corrosion resistance.
316L is an austenitic stainless steel. The Mo content of 316L gives it excellent corrosion resistance
17-4PH is a martensitic precipitation hardening stainless steel with high strength, hardness and corrosion resistance.
420 is a martensitic stainless steel with good mechanical properties, thermal conductivity and polishing properties similar to mold steel, while maintaining good corrosion resistance.
Physical properties
| Trademark | Size range | Size distribution | Hall flow rate | Bulk density | Tap density | ||
| D10(μm) | D50(μm) | D90(μm) | |||||
| 316L | 15-53μm | 17-23 | 30-38 | 50-58 | 25s/50g | 4.0g/cm³ | 4.5g/cm³ |
| 17-4PH | 15-53μm | 4.0g/cm³ | 4.5g/cm³ | ||||
| 420 | 15-53μm | 4.0g/cm³ | 4.5g/cm³ | ||||
Heat treatment recommendations
| Trademark | Heat treatment recommendations |
| 316L | 1050℃/2h/WQ |
| 17-4PH | 1040°C/2h +480°C/4h |
| 420 | 1050°C/0.5h/WQ |
| Trademark | Hardness(HRC) | Tensile strength (σb/Mpa) | Yield strength (σp0.2/Mpa) | Elongation (δ5/%) |
| 316L | 13-15 | 650 | 550 | 45 |
| 17-4PH | 32-42 | 1310 | 1175 | 13 |
| 420 | 48-52 | 1950 | 1530 | 7 |
Chemical composition range (wt,-%)
| Trademark | C | Cr | Ni | Cu | Nb | Mo |
| 316L | ≤0.03 | 16.00-18.00 | 10.00-14.00 | – | – | 2.00-3.00 |
| 17-4PH | ≤0.03 | 15.5-17.5 | 3.00-5.00 | 3.00-5.00 | 0.15-0.45 | – |
| 420 | 0.35-0.45 | 12.00-14.00 | ≤0.6 | – | ≤0.20 | ≤0.20 |
| Trademark | Si | Mn | S | P | O | Fe |
| 316L | ≤1.00 | ≤2.00 | ≤0.03 | ≤0.045 | ≤0.08 | Bal |
| 17-4PH | ≤1.00 | ≤1.00 | ≤0.03 | ≤0.03 | ≤0.03 | Bal |
| 420 | ≤1.00 | ≤1.00 | ≤0.03 | ≤0.045 | ≤0.03 | Bal |
430L Powder
430L Powder
| Product | 430L Powder |
| CAS No. | 12597-68-1 |
| Appearance | Silvery or Gray Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | Fe-16Cr |
| Density | 7.7g/cm3 |
| Molecular Weight | 150-160 g/mol |
| Product Codes | NCZ-DCY-174/25 |
430L Description:
430L Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
430L Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
430L Powder
430L powder is a ferritic stainless steel powder containing 17% chromium with additions of molybdenum and niobium for enhanced corrosion resistance. It provides an optimal balance of corrosion resistance, strength, weldability and cost.
Overview of 430L Powder
430L powder is a ferritic stainless steel powder containing 17% chromium with additions of molybdenum and niobium for enhanced corrosion resistance. It provides an optimal balance of corrosion resistance, strength, weldability and cost.
Key properties and advantages of 430L powder:
430L Powder Properties and Characteristics
| Properties | Details |
| Composition | Fe-17Cr-Nb-Mo alloy |
| Density | 7.7 g/cc |
| Particle shape | Irregular, angular |
| Size range | 10-150 microns |
| Apparent density | Up to 50% of true density |
| Flowability | Moderate |
| Corrosion resistance | Excellent in many environments |
| Strengthening | Solid solution and precipitation strengthening |
430L powder is widely used in chemical processing, marine hardware, automotive exhaust components, industrial valves and flanges, and structural parts needing weathering resistance.
430L Powder Composition
| Element | Weight % |
| Iron (Fe) | Balance |
| Chromium (Cr) | 16-18% |
| Carbon (C) | 0.12% max |
| Silicon (Si) | 1% max |
| Manganese (Mn) | 1% max |
| Molybdenum (Mo) | 0.5% max |
| Niobium (Nb) | 0.3-0.6% |
| Nitrogen (N) | 0.03% max |
| Sulfur (S) | 0.03% max |
Iron provides the base matrix and ductility
Chromium enhances corrosion and oxidation resistance
Niobium and molybdenum provide precipitation strengthening
Carbon, nitrogen and sulfur are controlled as tramp elements
The composition is designed to provide optimum corrosion resistance while retaining suitable ductility, toughness and weldability.
430L Powder Physical Properties
| Property | Values |
| Density | 7.7 g/cc |
| Melting point | 1400-1450°C |
| Electrical resistivity | 0.6-0.7 μΩ-m |
| Thermal conductivity | 26 W/mK |
| Curie temperature | 1440°C |
| Maximum service temperature | 650-750°C |
Density is moderately high for a stainless steel
Provides high temperature strength and corrosion resistance
Resistivity higher than pure iron or low alloy steels
Becomes paramagnetic above Curie point
Can withstand moderately high operating temperatures
The physical properties make 430L suitable for corrosive environments and moderately high temperature applications requiring oxidation resistance.
430L Powder Mechanical Properties
| Property | Values |
| Tensile strength | 450-650 MPa |
| Yield strength | 250-350 MPa |
| Elongation | 35-45% |
| Modulus of elasticity | 190-210 GPa |
| Hardness | 80-90 HRB |
| Impact strength | 50-100 J |
Provides moderately high strength for a stainless steel
Excellent ductility and impact toughness
Strength can be further increased through heat treatment
Hardness is relatively low compared to martensitic grades
The properties provide a good combination of strength, ductility, and toughness required for many corrosive environments and load conditions.
430L Powder Applications
| Industry | Example Uses |
| Chemical | Tanks, valves, pipes, pumps |
| Automotive | Exhaust components, fuel injection parts |
| Construction | Cladding, architectural features |
| Oil and gas | Wellhead equipment, drilling tools |
| Manufacturing | Pressing tooling, molds, dies |
Some specific product uses:
Marine hardware like railings, hinges, fasteners
Automotive exhaust manifolds, mufflers, catalytic converters
Chemical processing equipment like valves and flanges
Oil country tubular goods for downhole environments
Architectural paneling, cladding and decorative features
Its excellent corrosion resistance combined with good manufacturability make 430L widely used across industries needing weathering and oxidation resistance.
| Standard | Description |
| ASTM A743 | Standard for corrosion resistant chromium steel castings |
| ASTM A744 | Standard for corrosion resistant chromium steel sheet and strip |
| AMS 5759 | Annealed corrosion resistant steel bar, wire, forgings |
| SAE J405 | Automotive weathering steel sheet |
| DIN 17440 | Stainless steels for corrosion resistant applications |
These standards define:
Chemical composition limits of 430L alloy
Permissible impurity levels like S, P
Required mechanical properties
Approved production methods
Compliance testing protocols
Proper packaging, labeling and documentation
Meeting certification requirements ensures suitability of the powder for the target applications and markets.
430L Powder Particle Size Distribution
| Particle Size | Characteristics |
| 10-45 microns | Ultrafine grade for high density and surface finish |
| 45-150 microns | Coarse grade provides good flowability |
| 15-150 microns | Standard grade for pressing and sintering |
Finer particles allow greater densification during sintering
Coarser powder flows better and fills die cavities uniformly
Size range is tailored based on final part properties needed
Both gas and water atomized powders are available
Controlling particle size distribution allows optimizing processing behavior and final part performance.
430L Powder Apparent Density
| Apparent Density | Details |
| Up to 50% of true density | For irregular powder morphology |
| 3.5-4.5 g/cc typical | Improves with greater packing density |
Higher apparent density improves powder flow and compressibility
Irregular morphology limits maximum packing density
Values up to 60% are possible with spherical powders
High apparent density improves press filling efficiency
Higher apparent density leads to better manufacturing productivity and part quality.
| Method | Details |
| Gas atomization | High pressure inert gas breaks molten metal stream into fine droplets |
| Water atomization | High pressure water jet breaks metal into fine particles |
| Vacuum induction melting | High purity input materials melted under vacuum |
| Multiple remelting | Improves chemical homogenization |
| Sieving | Classifies powder into different particle size ranges |
Gas atomization provides clean, spherical powder morphology
Water atomization is a lower cost process with irregular particles
Vacuum melting and remelting minimizes gaseous impurities
Post-processing allows customization of particle sizes
Automated production and stringent quality control result in consistent powder suitable for critical applications.
430L Powder Handling and Storage
| Recommendation | Reason |
| Use PPE and ventilation | Avoid exposure to fine metallic particles |
| Ensure proper grounding | Prevent static discharge while handling |
| Avoid ignition sources | Powder can combust in oxygen atmosphere |
| Use non-sparking tools | Prevent possibility of ignition during handling |
| Follow safety protocols | Reduce risk of burns, inhalation, and ingestion |
| Store in stable containers | Prevent contamination or oxidation |
As 430L powder is flammable, ignition and explosion risks should be controlled during handling and storage. Otherwise it is relatively safe with proper precautions.
430L Powder Inspection and Testing
| Test | Details |
| Chemical analysis | ICP and XRF verify composition |
| Particle size distribution | Laser diffraction determines size distribution |
| Apparent density | Hall flowmeter test per ASTM B212 standard |
| Powder morphology | SEM imaging shows particle shape |
| Flow rate analysis | Gravity flow rate through specified nozzle |
| Loss on ignition | Determines residual moisture content |
Stringent testing ensures the powder meets the required chemical purity, particle characteristics, density, morphology, and flowability per applicable specifications.
430L Powder Pros and Cons
Advantages of 430L Powder
Excellent corrosion resistance in many environments
Good ductility, toughness and weldability
Cost-effective compared to austenitic grades
Can be precipitation hardened to increase strength
Good high temperature oxidation resistance
Readily formable using conventional techniques
Disadvantages of 430L Powder
Lower strength than martensitic or ferritic grades
Requires care during welding to avoid sensitization
Susceptible to chloride stress corrosion cracking
Limited high temperature tensile strength
Lower hardness and wear resistance than austenitic grades
Surface discoloration over time in outdoor exposure
Comparison With 304L Powder
430L vs 304L Stainless Steel Powder
| Parameter | 430L | 304L |
| Density | 7.7 g/cc | 8.0 g/cc |
| Strength | 450-650 MPa | 520-620 MPa |
| Corrosion resistance | Excellent | Outstanding |
| Heat resistance | Good | Excellent |
| Weldability | Good | Excellent |
| Cost | Low | High |
| Uses | Automotive, construction | Chemical processing, marine |
430L has slightly lower strength but better cost
304L has superior corrosion and heat resistance
430L has better room temperature toughness
304L is preferred for applications above 500°C
430L suited for outdoor structures and automotive parts
430L Powder FAQs
Q: What are the main applications of 430L stainless steel powder?
A: Main applications include automotive exhaust components, chemical processing equipment, oil and gas tools, architectural paneling and cladding, marine hardware, and manufacturing tooling.
Q: What precautions should be taken when working with 430L powder?
A: Recommended precautions include ventilation, PPE, proper grounding, inert atmosphere, avoiding ignition sources, using non-sparking tools, and safe storage in stable containers.
Q: What is the effect of niobium addition in 430L stainless steel?
A: Niobium provides precipitation strengthening through formation of nitrides and carbides. This strengthens the steel while retaining good corrosion resistance and ductility.
Q: How does 430L differ from 409 and 439 stainless steel grades?
A: 430L has higher corrosion resistance than 409 and higher strength than 439. It provides an optimal combination of corrosion resistance, formability, weldability and cost.
Alloy Series Powder
Alloy Series Powder
| Product | Alloy Series Powder |
| CAS No. | 65997-19-5 |
| Appearance | Gray Metallic Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | NiCrCoMoFeAl |
| Density | 8.2-8.5g/cm3 |
| Molecular Weight | N/A |
| Product Codes | NCZ-DCY-240/25 |
Alloy Series Description:
Alloy Series Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
Alloy Series Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
High-temperature alloy series powders are designed to handle extreme high-temperature environments, providing excellent performance and heat-resistant properties. Let’s explore this range of products and understand their potential for high temperature applications.
| Product | Specification | Apparent Density | Flow Ability | Oxygen Content | Tensile Strength | Yield Strength | Elongation |
| GH3625 | 15-53µm 45-105µm 75-150µm |
≥4.40g/cm³ | ≤20s/50g | ≤300ppm | 1000±50Mpa | 600±50Mpa | 35±5% |
| GH4169 | ≥4.20g/cm³ | ≤20s/50g | ≤300ppm | 1250±30Mpa | 1000±30Mpa | 18±3% | |
| GH3230 | ≥4.40g/cm³ | ≤20s/50g | ≤300ppm | 930±30Mpa | 930±30Mpa | 25±5% | |
| GH3536 | ≥4.40g/cm³ | ≤20s/50g | ≤300ppm | 850±30Mpa | 550±20Mpa | 42±5% |
Process: Vacuum air atomization method
Advantages: high sphericity, small satellite powder, good fluidity, and high bulk density. The printed product has good fatigue resistance, anti-oxidation performance and structural stability
Applications: aerospace and industrial turbine discs, rings, blades, machine and other structures, aerospace engine combustion chambers
Packaging: ordinary packaging such as aluminum foil bags/plastic bottles/iron drums, vacuum packaging or inert gas-filled packaging, etc.
AlSi10 Powder
AlSi10 Powder
| Product | AlSi10 Powder |
| CAS No. | N/A |
| Appearance | Gray-Silver Metallic Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | Al90Si10 |
| Density | 2.67g/cm3 |
| Molecular Weight | N/A |
| Product Codes | NCZ-DCY-190/25 |
AlSi10 Description:
AlSi10 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
ALSi10 Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
AlSi10 Powder
AlSi10 is an aluminum alloy powder containing 10% silicon and remainder aluminum. It offers an excellent combination of strength, low density, thermal properties, corrosion resistance and weldability.
AlSi10 Powder Composition
| Element | Composition |
| Aluminum (Al) | Balance |
| Silicon (Si) | 9-11% |
Aluminum forms the matrix providing low density, ductility and corrosion resistance.
Silicon provides solid solution strengthening and improves castability.
Strict control of the aluminum to silicon ratio is critical to achieve optimal strength and physical properties. Other minor alloying elements like magnesium, iron, copper or zinc may also be present in certain grades.
Properties of AlSi10 Powder
AlSi10 powder possesses an excellent combination of properties making it suitable for various demanding applications:
| Property | Value |
| Density | 2.7 g/cm3 |
| Melting Point | ~600°C |
| Thermal Conductivity | 150-180 W/m-K |
| Electrical Conductivity | 35-40% IACS |
| Coefficient of Thermal Expansion | 21-23 x 10<sup>-6</sup> /°C |
| Modulus of Elasticity | 80-85 GPa |
| Tensile Strength | 240-300 MPa |
| Elongation | 1-5% |
| Hardness | 80-90 Brinell |
| Corrosion Resistance | Excellent |
Low density – Up to 65% lighter than copper alloys and steels.
High thermal conductivity – Enables rapid dissipation of heat in electronics.
High strength-to-weight ratio – Strength comparable to titanium alloys with lower density.
Excellent weldability and castability – High fluidity when molten allowing easy casting and welding.
Resistant to corrosion and oxidation – Protective oxide layer prevents corrosion in many environments.
This exceptional property profile makes AlSi10 suitable for lightweight structural applications across aviation, space, automotive and other sectors.
Applications of AlSi10 Powder
Owing to its lightweight, strength and thermal properties, AlSi10 powder is ideal for:
| Applications | Benefits |
| Aerospace components | Low density combined with high strength. |
| Automotive parts | Weight reduction without compromising mechanical performance. |
| Electronic housings | Thermal management for heat dissipation combined with low weight. |
| Medical implants | Biocompatible, non-toxic, corrosion resistant. |
| Thermal management | High thermal conductivity to dissipate heat. |
Used extensively in aircraft and rocket components like engine mounts to reduce weight.
Automotive industry uses AlSi10 for pistons, transmission casings, suspension parts to improve fuel efficiency through lightweighting.
Electronic enclosures and heat sinks leverage high thermal conductivity for efficient cooling.
Rewards excellent strength-to-weight ratio with lower density compared to titanium alloys.
Provides excellent biocompatibility, corrosion resistance for medical implants like orthopedic devices.
AlSi10 delivers maximum performance in demanding applications where low mass and high strength are critical.
AlSi10 Powder Specifications
AlSi10 powder is available in various size fractions, shapes and purity levels:
| Parameter | Options |
| Particle size | 5-150 microns |
| Particle shape | Spherical, irregular |
| Apparent density | Up to 2.7 g/cm3 |
| Flow rate | Up to 25 s/50g |
| Purity | Up to 99.7% |
| Alloy variants | AlSi12, AlSi5 |
Smaller particles promote better sintering while larger sizes provide higher flowability.
Spherical morphology improves flow and packaging density. Irregular particles offer cost benefits.
Higher apparent density increases effective loading in composites manufacturing.
Higher flow rates enhance ease of powder handling and processing.
High purity reduces contamination issues during processing and improves final properties.
Range of silicon levels between 5-12% available to balance fluidity and strength.
Powder attributes are customized based on specific application requirements and processing methods.
Consolidation Methods for AlSi10 Powder
AlSi10 powder can be transformed into full density components using techniques like:
| Method | Benefits |
| Additive manufacturing | Excellent geometric freedom for complex shapes. |
| Metal injection molding | High precision net shape capability. |
| Pressing and sintering | Economical for high volume simpler geometries. |
| Extrusion | Continuous production of rods and tubes. |
| Isostatic pressing | Achieves full density and improves properties. |
Powder bed fusion additive manufacturing methods like selective laser melting are popular for prototypes or low volume production.
Metal injection molding offers closest tolerances and excellent surface finish.
Pressing followed by liquid phase sintering is commonly used but secondary processing like extrusion is needed.
Extrusion leverages excellent castability to produce rods, tubes and profiles.
Cold and hot isostatic pressing reduce porosity and increase density.
The consolidation technique influences the microstructure, final properties, geometrical capabilities and productivity.
Heat Treatment of AlSi10 Parts
Solution heat treatment and artificial aging are used to tailor the strength of AlSi10 components:
| Heat Treatment | Details | Purpose |
| Solutionizing | 530-550°C, quench | Dissolve soluble phases |
| Artificial Aging | 150-180°C, 5-10 hrs | Precipitation hardening |
| Annealing | 350°C, slow cooling | Restores ductility |
Solution heat treatment dissolves alloying elements like silicon in the aluminum matrix followed by rapid cooling or quenching.
Subsequent aging treatment causes fine precipitation resulting in considerable hardening.
Annealing helps recover ductility after extensive prior cold working.
Careful control of time and temperature of solutionizing and aging allows customizing mechanical properties as per specific requirements.
Comparison of AlSi10 Powder with Alternatives
| Alloy | AlSi10 | AlSi12 | Al6061 | Al7075 |
| Strength | High | Highest | Medium | Very High |
| Weldability | Excellent | Poor | Good | Poor |
| Corrosion Resistance | Excellent | Excellent | Excellent | Good |
| Thermal Conductivity | High | Medium | Medium | Low |
| Density | Low | Low | Low | Low |
| Cost | Low | High | Medium | High |
AlSi12 has the highest strength but poorer weldability and thermal conductivity.
6061 is a popular general purpose alloy with medium strength and good corrosion resistance.
7075 excels in very high strength but has poor weldability and only moderate corrosion resistance.
AlSi10 provides the best all-round properties with added cost benefits.
For most applications, AlSi10 offers the optimum balance of performance, weldability and cost.
Health and Safety Considerations for AlSi10 Powder
Like any metal powder, AlSi10 powder requires safe handling:
| Hazard | Precautions | PPE |
| Skin/eye contact | Avoid direct contact. Rinse if exposed. | Gloves, goggles |
| Inhalation | Avoid breathing dust. Ensure ventilation. | Respirator |
| Ingestion | Avoid hand-mouth transfer. Wash hands. | – |
| Fire | Use sand. Do not use water. | Protective gear |
Wear gloves, goggles, mask when handling powder.
Avoid skin contact. Wash after exposure.
Store in cool, dry place away from sparks, flames.
Ensure proper ventilation and dust collection.
Refer SDS and local regulations for complete guidelines.
With proper precautions and PPE, AlSi10 powder can be safely handled during storage, processing and operation.
Inspection and Testing of AlSi10 Powder
To ensure quality requirements are met, AlSi10 powder should be tested for:
| Parameter | Method | Specification |
| Chemical composition | OES, XRF, wet chemistry | Conformance to Al, Si, Mg content |
| Particle size distribution | Laser diffraction, sieving | D10, D50, D90 within range |
| Powder morphology | SEM imaging | Spherical shape and flowability |
| Apparent density | Hall flowmeter test | Minimum specified density |
| Flow rate | Hall flow meter test | Maximum flow seconds |
| Impurity levels | ICP or LECO analysis | Low oxygen, moisture content |
Routine testing as per ASTM standards ensures consistency and high quality powder suitable for critical applications.
FAQs
- What is AlSi10 alloy used for?
- AlSi10 is widely used in aerospace, automotive, and electronics applications where low weight and high strength are critical such as engine mounts, pistons, housings, heat sinks.
- Does AlSi10 require heat treatment?
- Yes, solution heat treatment followed by aging can significantly enhance the tensile strength by precipitating alloying elements like silicon.
- What methods can consolidate AlSi10 powder?
- AlSi10 powder can be consolidated to full density using additive manufacturing, metal injection molding, extrusion, and powder compact forging.
- Is AlSi10 weldable?
- Yes, AlSi10 has excellent weldability owing to the silicon alloying addition which improves fluidity in the molten state. This allows easy fusion welding.
- Is AlSi10 powder safe to handle?
- Like any fine metal powder, standard safety precautions should be taken during storage, handling and processing of AlSi10 powder to minimize health and safety risks.
AlSi10Mg Powder
AlSi10Mg Powder
| Product | AlSi10Mg Powder |
| CAS No. | N/A |
| Appearance | Gray-Silver Metallic Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | AlSi10Mg |
| Density | 1.2-1.5g/cm3 |
| Molecular Weight | N/A |
| Product Codes | NCZ-DCY-192/25 |
AlSi10Mg Description:
AlSi10Mg Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
ALSi10Mg Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
mize health and safety risks.
AlSi10Mg powder
AlSi10Mg powder is a composite material composed of aluminum (Al), silicon (Si), and magnesium (Mg). It is specifically designed for use in additive manufacturing processes, where it is used as a feedstock material for 3D printers.
| Metal Powder | Size | Quantity | Price/kg | Size | Quantity | Price/kg |
| AlSi10Mg | 15-45μm | 1KG | 70 | 15-53μm | 1KG | 51 |
| 10KG | 42 | 10KG | 33 | |||
| 100KG | 34.6 | 100KG | 23.5 |
Overview of AlSi10Mg Powder
AlSi10Mg is an aluminum alloy powder composed primarily of aluminum along with silicon and magnesium as the major alloying elements. It is widely used in metal additive manufacturing, also known as 3D printing, due to its excellent strength, durability, weldability, and corrosion resistance.
AlSi10Mg powder can be processed through selective laser melting (SLM), electron beam melting (EBM), and direct metal laser sintering (DMLS) to create complex metal parts with fine details and custom geometries. Its properties make it suitable for aerospace, automotive, medical, and industrial applications.
This article provides a comprehensive technical overview of AlSi10Mg powder covering its composition, properties, applications, pricing, suppliers, and other key information for materials engineers, product designers, and 3D printing professionals.
Composition: Aluminum with 9-11% silicon, 0.2-0.45% magnesium
Particle shape: Spherical, high flowability
Size range: 15-45 microns
Density: 2.67 g/cc
Melting point: ~615°C
Strength: Medium to high
Uses: Aerospace, automotive, industrial 3D printing
Composition of AlSi10Mg Powder
The composition of AlSi10Mg powder consists mainly of aluminum with additions of silicon and magnesium as alloying elements. The nominal composition range is provided below:
| Element | Weight % |
| Aluminum (Al) | Base/remainder |
| Silicon (Si) | 9-11% |
| Magnesium (Mg) | 0.2-0.45% |
| Other (Fe, Mn, etc.) | < 0.55% total |
Silicon is added to aluminum to improve castability and enhance mechanical properties like yield strength and hardness. It increases fluidity during melting and improves feeding characteristics.
The addition of magnesium results in precipitation hardening which strengthens the alloy through heat treatment. Magnesium also improves corrosion resistance.
Trace amounts of iron, manganese, and other elements may be present as impurities up to 0.55% maximum. The levels of alloying additions can be varied within range to tailor the properties as per application requirements.
Nominal composition range of AlSi10Mg alloy powder
| Element | Minimum wt% | Maximum wt% |
| Aluminum | Bal. | Bal. |
| Silicon | 9 | 11 |
| Magnesium | 0.2 | 0.45 |
| Other | – | 0.55 |
Properties of AlSi10Mg Powder
AlSi10Mg exhibits properties making it suitable for demanding applications across aerospace, automotive, and industrial sectors. The key properties are highlighted below:
Mechanical Properties
High strength and hardness
Good ductility in annealed state
Excellent weldability
High fatigue strength
Physical Properties
Density: 2.67 g/cc
Melting point: ~615°C
Thermal conductivity: 130 W/m-K
Coefficient of thermal expansion: 21-24 x 10^-6 K^-1
Other
Good corrosion resistance
Excellent printability and surface finish
Biocompatible per ISO 10993 and ASTM F67
Non-magnetic
The density is comparable to aluminum alloys like AlSi12 and AlSi7Mg. The melting point is also similar to standard Al-Si casting alloys. These properties allow processing and consolidation via sintering and melting.
Overview of key properties of AlSi10Mg powder
| Property | Typical Values |
| Density | 2.67 g/cc |
| Melting Point | ~615°C |
| Thermal Conductivity | 130 W/m-K |
| Electrical Resistivity | 4-8 x 10^-8 Ωm |
| Young’s Modulus | 70-80 GPa |
| Poisson’s Ratio | 0.33 |
| Yield Strength | 215-365 MPa |
| Tensile Strength | 330-430 MPa |
| Elongation | 8-10% |
| Hardness | 80-100 Brinell |
Note: Properties depend on precise composition, manufacturing method, build orientation, heat treatment etc. Values shown are typical or standard.
The mechanical properties like high yield and tensile strength along with good ductility make AlSi10Mg suitable for high-performance parts across industries. The alloy can be age hardened to further enhance strength. Excellent corrosion resistance is achieved by silicon additions creating a protective oxide layer. Overall, AlSi10Mg provides a versatile combination of properties for metal AM.
Applications of AlSi10Mg Powder
The lightweight, strong, and printable characteristics of AlSi10Mg powder make it one of the most widely used alloys in additive manufacturing. Some typical applications include:
Aerospace: Turbine blades, rocket nozzles, structural brackets, satellite components, UAV parts
Automotive: Powertrain parts, pistons, turbochargers, heat exchangers
Industrial: Robotics, tooling, jigs and fixtures, driveshafts
Medical: Orthopedic implants, prosthetics, surgical instruments
Other: Heat sinks, hydraulic manifolds, housings, cooling channels
AlSi10Mg enables complex, optimized geometries that improve performance and efficiency in the above applications. The fine structures possible via 3D printing enhances heat transfer, fluid flow, and other properties.
The excellent strength-to-weight ratio of AlSi10Mg reduces component weight while maintaining mechanical performance. This helps improve fuel economy in vehicles and lower launch costs in space applications.
Overview of AlSi10Mg applications across industries
| Sector | Typical Applications |
| Aerospace | Turbine blades, structural brackets, rocket nozzles, satellites |
| Automotive | Powertrain, pistons, turbochargers, heat exchangers |
| Industrial | Robotics, tooling, jigs and fixtures |
| Medical | Orthopedic implants, prosthetics |
| General | Heat sinks, hydraulic manifolds, housings |
AlSi10Mg is certified for aerospace applications meeting standards like AMS4967 and AMS4169. Extensive qualifications and testing validates its performance under extreme environments. The biocompatibility per ISO 10993 and ASTM F67 allows use in medical devices and implants. Overall, AlSi10Mg provides a versatile lightweight material solution for critical applications.
Processability of AlSi10Mg Powder
AlSi10Mg powder can be processed via major metal additive manufacturing methods like:
Selective Laser Melting (SLM)
Direct Metal Laser Sintering (DMLS)
Electron Beam Melting (EBM)
Laser-based Methods: SLM and DMLS use a high power laser to selectively fuse regions of a powder bed to build up parts layer-by-layer. The consolidated material has properties comparable to conventional aluminum alloys. SLM typically uses higher laser power for full melting. DMLS has lower power for sintering powder particles.
Electron Beam Melting: EBM uses an electron beam as heat source to melt and fuse material. It can achieve higher build rates than laser processes since it fuses each layer rapidly. Material properties are similar to SLM and DMLS.
Print Parameters: Typical SLM parameters – Laser power 175-350 W, Scan speed 700-1500 mm/s, Layer thickness 20-100 μm. For EBM – Beam power 3-7 kW, Scan speed 1000-2500 mm/s, Layer thickness 50-200 μm.
Other methods: AlSi10Mg powder can also be used in binder jetting where a liquid binder is selectively deposited to form the shape. The “green” part is then sintered. Cold spray deposition is also possible.
AM processes compatible with AlSi10Mg alloy powder
| Process | Heat Source | Description |
| SLM | Laser | Selective laser melting |
| DMLS | Laser | Direct metal laser sintering |
| EBM | Electron beam | Electron beam melting |
| Binder jetting | Liquid binder | Binder printed, then sintered |
| Cold spray | Kinetic | Powder sprayed onto substrate |
AlSi10Mg powder has high absorbance to the laser/electron beam, and excellent flow and packing density. This results in good spreadability across powder bed and efficient melting/sintering. The particle size and spherical morphology also plays a key role.
Overall, AlSi10Mg offers excellent processability across PBF and related methods to fabricate complex geometries with good surface finish and feature resolution.
Powder Characteristics and Quality
AlSi10Mg powder used in AM processes exhibits the following characteristics:
Spherical powder morphology with smooth surface
Flowability with minimal agglomeration
Apparent density ~1.2-1.6 g/cc
Tap density ~2.2-2.7 g/cc
Uniform composition distribution
High purity with low internal porosity
Controlled particle size distribution
Particle shape: Spherical powder morphology provides good flow and spreadability across the powder bed. It results in uniform melting and material properties. Gas atomization is commonly used to achieve sphericity >90%.
Flowability: Powders with high flowability spread evenly and pack densely on powder bed platforms. Flow rates of 23-27 s/50g through Hall funnel are typical.
Particle size: The particle size distribution is generally 10-45 μm or 15-45 μm. Larger particles ~35-45 μm improve flow while smaller ones ~15-25 μm enhance density and resolution.
Composition control: Tight control of composition within specification maximizes material performance. Uniform distribution of alloying elements is ensured.
Purity: High purity with low porosity and inclusions prevents process defects. Oxygen content <1000 ppm.
Typical characteristics and properties of AlSi10Mg powders
| Parameter | Typical Value | Role |
| Particle shape | Spherical >90% | Flowability, density |
| Particle size (μm) | 15-45 | Density, resolution |
| Flow rate (s/50g) | 23-27 | Powder bed packing |
| Apparent density (g/cc) | 1.2-1.6 | Recyclability |
| Tap density (g/cc) | 2.2-2.7 | Green density |
| Purity | >99.5% | Defect reduction |
| Oxygen (ppm) | <1000 | Clean melting |
Parameters like particle shape distribution (PSD) and Hausner ratio indicate powder quality. Strict control over gas atomization results in high batch-to-batch consistency. Powder is supplied with composition report and lot-specific certificates of analysis (COA).
Choosing AlSi10Mg Powder
Key considerations for choosing AlSi10Mg powder include:
Application requirements: Performance needs like strength, hardness, ductility, fatigue life, etc. Applications may demand specific material certifications also.
AM process variables: Matching particle size range, shape and distribution to the printer model, layer thickness, beam power and related parameters.
Quality and consistency: Powder batches that reliably meet composition, purity, particle characteristics etc. are critical for production use.
Availability and lead times: For prototype work availability of small quantities may be key while production needs bulk orders and stable long-term supply.
Pricing: Price per kg will depend on quantity, shipment costs, supplier margins etc. Large OEM contracts get better pricing.
Technical support: Manufacturers with strong technical expertise in metal powder production and AM can provide guidance on best powder options.
Working with established suppliers and collaborating early in the AM part design process is advised when selecting AlSi10Mg powder.
Pros and Cons of AlSi10Mg Powder
Pros
High strength with good ductility
Excellent corrosion resistance
Readily weldable and machinable
Good thermal properties
Widely qualified for aerospace use
Biocompatible for medical implants
Cons
Lower yield strength than AlSi7Mg and AlSi12 alloys
Susceptible to porosity defects during printing
High reflectivity demands higher laser power
Not optimal for high temperature applications >150°C
More expensive than unalloyed aluminum powders
FAQs
- What is the chemical composition of AlSi10Mg powder?
- The typical composition is aluminum base with 9-11% silicon and 0.2-0.45% magnesium. Remaining is other trace elements at <0.55% total.
- What is the density of AlSi10Mg and AlSi10Mg powder?
- The density is around 2.67 g/cc for both the bulk alloy and the powder form.
- What are the mechanical properties of AlSi10Mg parts made by AM?
- Printed AlSi10Mg has a tensile strength of 330-430 MPa, yield strength of 215-365 MPa, and elongation of 8-10% in the as-built condition. Heat treatment can further improve properties.
- What particle size is recommended for AlSi10Mg powder in AM?
- A particle size range of 15-45 microns is commonly used, though size distributions can be optimized for specific printers and layer thickness requirements.
- Can you machine/weld AlSi10Mg AM parts?
- Yes, AlSi10Mg parts made by 3D printing can be machined and welded via conventional methods after an appropriate stress relief heat treatment.
- Is AlSi10Mg powder reusable?
- AlSi10Mg powder can typically be recycled 5-10 times before a refresh is needed, depending on AM process and contamination levels.
AlSi12 Powder
AlSi12 Powder
| Product | AlSi12 Powder |
| CAS No. | 11145-27-0 |
| Appearance | Silvery-Gray Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | Al88Si12 |
| Density | 2.7g/cm3 |
| Molecular Weight | N/A |
| Product Codes | NCZ-DCY-193/25 |
AlSi12 Description:
AlSi12 Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
AlSi12 Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
AlSi12 powder is a fine-grained aluminum-silicon alloy powder commonly used in additive manufacturing processes. It is produced by atomization, which involves melting the alloy and rapidly cooling it to form small powder particles. The resulting powder exhibits excellent flowability and can be easily processed using various additive manufacturing techniques such as selective laser melting (SLM) and electron beam melting (EBM)
Overview of AlSi12 Powder
AlSi12 or A413 is an aluminum casting alloy with relatively high silicon content. The addition of 12% silicon results in good wear resistance, low coefficient of thermal expansion, and high thermal conductivity.
Key properties of AlSi12 powder include:
Good strength and hardness
Excellent wear resistance
Good dimensional stability
High thermal conductivity
Good machinability and polishability
Low specific gravity
Available in various particle size distributions
AlSi12 is used for producing cylinder liners, piston rings, rocker arms, connecting rods, parts requiring heat and wear resistance. The powder metallurgy approach enables complex geometries.
Composition of AlSi12 Powder
The typical composition of AlSi12 powder is:
| Element | Weight % |
| Aluminum (Al) | Balance |
| Silicon (Si) | 11-13% |
| Copper (Cu) | <1% |
| Magnesium (Mg) | <1% |
| Iron (Fe) | <1% |
| Manganese (Mn) | <1% |
| Zinc (Zn) | <1% |
| Nickel (Ni) | <0.5% |
Properties of AlSi12 Powder
AlSi12 powder possesses the following properties:
| Property | Value |
| Density | 2.7 g/cc |
| Melting Point | 560°C |
| Thermal Conductivity | 150-180 W/mK |
| Electrical Resistivity | 4-6 μΩ.cm |
| Young’s Modulus | 80-90 GPa |
| Poisson’s Ratio | 0.33 |
| Tensile Strength | 240-300 MPa |
| Compressive Strength | 600-650 MPa |
| Elongation | 3-5% |
| Hardness | 80-90 Brinell |
The silicon additions result in higher strength, hardness, wear resistance, and thermal conductivity compared to unalloyed aluminum. The material retains good ductility and machinability.
Production Method for AlSi12 Powder
AlSi12 powder is manufactured by:
Gas Atomization – High pressure inert gas jets atomize molten AlSi12 alloy to form spherical powders. This produces powder with smooth morphology and narrow size distribution suitable for AM.
Water Atomization – High velocity water jets hit the molten metal stream to produce fine irregular AlSi12 particles. Lower cost but higher oxygen pickup.
Mechanical Milling – Ball milling of aluminum and silicon powders followed by blending, compacting and sintering. Leads to wide size distribution.
Gas atomization is preferred when spherical powder with controlled characteristics is required such as for additive manufacturing or MIM. Mechanical milling route is lower cost.
Applications of AlSi12 Powder
Key applications of AlSi12 alloy powder include:
Additive Manufacturing – Used to fabricate complex metal parts by selective laser melting, direct metal laser sintering, binder jetting etc.
Powder Metallurgy – Compacting and sintering to create high performance parts like piston rings, pump components, rocker arms.
Metal Injection Molding – Produces intricate components with excellent properties and surface finish.
Wear Resistant Coatings – Applied via thermal spray methods on cylinder bores, piston skirts, engine blocks.
Brazing Filler – For joining aluminum and steel components in automotive, aerospace applications.
Friction Materials – High silicon content improves friction performance. Used in brake pads, clutch discs.
Casting – Added to aluminum melts to improve castability and wear resistance.
Specifications of AlSi12 Powder
AlSi12 powder is available in different size ranges, grades and purity levels:
Particle Size: From 10 – 150 microns for AM, under 45 microns for MIM feedstock.
Morphology: Spherical, irregular and mixed shapes. Spherical improves flow and packing.
Purity: From commercial to high purity grades based on elemental analysis.
Oxygen Content: Levels range from 300 – 1000 ppm for gas atomized, higher for water atomized.
Grades: Customized composition and powder characteristics based on application.
Surface Area: For nanoscale powder surface area reaches up to 10 m2/g.
Handling and Storage of AlSi12 Powder
AlSi12 powder should be stored and handled carefully to avoid:
Contact with moisture – leads to oxidation. Store in sealed containers with desiccant bags.
Agglomeration – prevents flow. Store cool, dry powder and consider addition of flow agents.
Fire hazards – do not store near ignition sources due to flammability of finely divided metals.
Inhalation – use masks to prevent inhaling fine powders during handling.
Safety data sheet precautions from supplier should be followed.
Proper inert gas glove box techniques recommended when handling reactive aluminum powders.
Testing and Characterization Methods
Key test methods for AlSi12 powder include:
Chemical analysis – ICP and XRF techniques determine composition, purity levels.
Particle size analysis – Carried out as per ASTM B822 using laser diffraction.
Morphology – Scanning electron microscopy reveals shape, surface structure.
Powder flow – Measured by Hall flowmeter as per ASTM B213 standard.
Density – Measured by gas pycnometry or apparent density method.
Microstructure – X-ray diffraction analysis for phases present.
Thorough testing and inspection ensures AlSi12 powder meets application requirements.
Comparison of AlSi12 and AlSi10Mg Powders
AlSi12 and AlSi10Mg are two aluminum alloy powders compared:
| Parameter | AlSi12 Powder | AlSi10Mg Powder |
| Alloy type | Cast alloy | Wrought alloy |
| Si content | 11-13% | 9-11% |
| Mg content | <1% | 0.2-0.5% |
| Strength | Higher | Lower |
| Wear resistance | Excellent | Good |
| Corrosion resistance | Moderate | Excellent |
| Machineability | Very good | Moderate |
| Applications | Wear parts, thermal management | Aerospace, marine parts |
| Cost | Lower | Higher |
AlSi12 provides the best combination of wear properties, machinability and low cost whereas AlSi10Mg offers higher strength and corrosion resistance required for critical structural parts.
AlSi12 Powder FAQs
Q: How is AlSi12 powder produced?
A: AlSi12 powder is commercially produced by gas atomization and water atomization of the molten alloy. Mechanical milling is also used to make this powder.
Q: What is AlSi12 powder used for?
A: AlSi12 finds use in additive manufacturing, powder metallurgy parts production, thermal spray coatings, metal injection molding, and other applications needing a lightweight alloy with good wear properties and machinability.
Q: What is the typical particle size for AlSi12 powder in AM?
A: For most binder jet and powder bed fusion AM processes, the ideal particle size range for AlSi12 powder is 20-65 microns with good powder flow characteristics.
Q: Does AlSi12 powder require special handling precautions?
A: Yes, it is recommended to handle aluminum powders under inert conditions and avoid accumulation of fine powder to minimize fire and explosion hazards. Proper ventilation and PPE should be used.
Q: Where can I purchase AlSi12 powder for making wear-resistant coatings?
A: Specialty AlSi12 grades suitable for thermal spray coatings can be purchased from leading supplier
Aluminum Alloy Powder
Aluminum Alloy Powder
| Product | Aluminum Alloy Powder |
| CAS No. | 7429-90-5 |
| Appearance | Silvery-Gray or White Powder |
| Purity | ≥99%, ≥99.9%, ≥95%(Other purities are also available) |
| APS | 1-5 µM, 10-53 µM (Can be customized), Ask for other available size range. |
| Ingredient | Al |
| Density | 2.66g/cm3 |
| Molecular Weight | 26.98g/mol |
| Product Codes | NCZ-DCY-198/25 |
Aluminum Alloy Description:
Aluminum Alloy Powder is one of the numerous advanced ceramic materials manufactured by Nanochemazone. Nanochemazone produces too many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information are available. Please request a quote above for more information on lead time and pricing
Aluminum Alloy Powder Related Information :
Storage Conditions:
Airtight sealed, avoid light and keep dry at room temperature.
Please contact us for customization and price inquiry
Email: contact@nanochemazone.com
Note: We supply different size ranges of Nano and micron as per the client’s requirements and also accept customization in various parameters.
The aluminum alloy family is a family of materials with a variety of unique properties and areas of application. Their characteristics mainly depend on the alloying elements contained in them and their proportions. These ranges offer a wide range of opportunities to meet the needs of different industries. Let’s explore the features and typical applications of each series to better understand how to choose the best aluminum alloy material for your project.
| roduct | Specification | Apparent Density | Flow Ability | Oxygen Content | Tensile Strength | Yield Strength | Elongation |
| AISi10Mg | 15-53µm 45-105µm 75-150µm |
≥1.35g/cm³ | ≤80s/50g | ≤300ppm | 300±20Mpa | 200±20Mpa | 20±2% |
| AMgScZr | ≥1.30g/cm³ | ≤80s/50g | ≤300ppm | 545±20Mpa | 500±20Mpa | 10±2% | |
| AK400 (can be anodized) | ≥1.30g/cm³ | ≤80s/50g | ≤300ppm | 430±20Mpa | 300±20Mpa | 10±2% | |
| Pure aluminum powder (purity 99.8%) | ≥1.20g/cm³ | ≤100s/50g | ≤1000ppm | \ | \ |
Process: Vacuum air atomization method
Advantages: low satellite powder/hollow powder ratio, good fluidity, high sphericity, and high bulk density. Printed finished parts have high corrosion resistance, low density and mechanical strength
High degree of heat treatment, requiring less heat treatment than castings
Application: 3D printing lightweight, brackets and other structural parts, heat dissipation components, etc. in aerospace, automobile manufacturing and other industries
Packaging: aluminum foil bags/plastic bottles/iron drums and other ordinary packaging or vacuum packaging, etc.

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